ライフサイエンスコーパス: organic

1 elicate, dwelling tubes that were originally organic.

2 atty acid metabolism, amino acid metabolism, organic acid metabolism, and ethylene-responsive pathway

3 yze the formation of CoA esters of different organic acids relevant for the N-substitution of the 3-p

4 tion, as indicated by analysis of sugars and organic acids, and ethanol production was maintained at

5 il environment contains a broad diversity of organic acids, so it is not surprising that bacteria suc

6 ntent of flavonoids, organosulfur compounds, organic acids, water soluble sugars and amino acids in t

7 lividans can activate many of the available organic acids.

8 The evolution of organic aerosol (OA) and brown carbon (BrC) in wildfire

9 cle phase of a viscous atmospheric secondary organic aerosol (SOA) can have a profound impact on aero

10 Anthropogenic emissions alter secondary organic aerosol (SOA) formation chemistry from naturally

11 and physicochemical properties of secondary organic aerosol (SOA).

12 spheric aerosols, to contribute to secondary organic aerosol mass.

13 cleation and growth of atmospheric secondary organic aerosols and atmospheric OH recycling.

14 Each organic amendment type was applied to nine randomly sele

15 Three types of organic amendments (Chicken manure, Dairy manure, and Mi

16 n, the combination of mineral P sources with organic amendments could be successfully used as a cost-

17 1 displays exceptional chemical stability in organic and aqueous solvents over a wide pH range (pH 1-

18 d) content and antioxidant activity (AOA) of organic and conventional apples, was investigated.

19 interplay of intrinsically anionic POMs with organic and inorganic cations is crucial to control POM

20 esult of the concerted 3D co-assembly of the organic and inorganic components.

21 and are notorious at the interfaces between organic and inorganic layers.

22 PM from low elevation contained mixtures of organic and inorganic P, with organic P estimated at 30-

23 Possible pathways to integrate organic and inorganic structures by templating strategie

24 esion of Lys and DOPA-containing peptides to organic and inorganic substrates using single-molecule f

25 Many organic and main-group compounds, usually acids or bases

26 ts coupling of POM properties with different organic and metal cation functionalities, thereby expand

27 composites consisting of spatially discrete organic and mineral (ceramic) phases, the intrinsic mech

28 The major parts are catalysis of organic and molecular reactions, electrocatalysis, photo

29 re currently shifting from purely inorganic, organic and silicon-based materials towards hybrid organ

30 This review comprehensively covers organic and transition metal-containing photoactivatable

31 ement strategies, resources including water, organics, and nutrients accumulate, transform, and impac

32 (2)(2+) in monophasic (organic) or biphasic (organic/aqueous) model solvent systems.

33 The organic-based magnet [V(TCNE)(x) ; TCNE = tetracyanoethy

34 pintronic applications of spin wave modes in organic-based magnets.

35 total ecosystem C storage that includes soil organic C (SOC) must be considered to determine whether

36 henyl)]porphyrin affords a porphyrin tubular organic cage, PTC-1(2H).

37 en metal clusters and a self-assembled metal-organic cage.

38 nd porous liquids composed of functionalized organic cages have recently attracted attention.

39 ght into the imine bond dynamics of covalent organic cages, we studied the formation and exchange of

40 r in Austria increased the river's dissolved organic carbon (DOC) concentration from 1.6 to 2.1 mg L(

41 120 years BP) refractory carbon as dissolved organic carbon (DOC).

42 rong positive log-linear correlation between organic carbon (OC)-normalized PFAA partition coefficien

43 tentially alter spatial distribution of soil organic carbon (SOC) and total nitrogen (TN) concentrati

44 Soil organic carbon (SOC) concentration in WSA(0.106-0.25),WS

45 microbial residues may not only affect soil organic carbon (SOC) pool but also impact SOC stability

46 ment and potentially contributes to the soil organic carbon (SOC) pool.

47 sea-level rise, and salinity increase, soil organic carbon (SOC) sequestration mechanisms in estuari

48 Quantifying changes in soil organic carbon (SOC) stocks and other soil properties is

49 Total organic carbon (TOC) mass concentrations are decreasing

50 Intriguingly, higher total organic carbon (TOC) removal was achieved when antibioti

51 robe systems are self-organising states with organic carbon acting as a critical determining paramete

52 oot contained more elemental carbon but less organic carbon and was more sensitive to visible light b

53 ugh temperature controls the storage of soil organic carbon at mid and high latitudes(2,3), hydroclim

54 impacted the marine primary productivity and organic carbon burial.

55 further adaptable metric, which included the organic carbon concentration in the upper 20 cm of the s

56 hresholds for PM transition from low to high organic carbon content were characterized based on the m

57 th extensive riparian canopy, high levels of organic carbon in soils, and suboxic conditions at shall

58 nce spectroscopy showed that the particulate organic carbon in the water was drastically different fr

59 In the organic carbon PRB, unexpected negative europium anomali

60 heterotrophs in minimal media devoid of any organic carbon source, pointing to S. elongatus-E. coli

61 ticulate inorganic carbon): POC (particulate organic carbon) ratio describes the relative amount of i

62 Cuba had low concentrations of nutrients and organic carbon, abundant Prochlorococcus, and high micro

63 were younger than dissolved and particulate organic carbon, suggesting emissions were primarily fuel

64 ty of the coarse fraction (FSa) to stabilize organic carbon, thus pointing out that the role of FSa i

65 ess controlling the sequestration of sinking organic carbon.

66 ne substitution to phenethylammonium for the organic cations to tune the structural rigidity and octa

67 autocatalysis-occupies a unique position in organic chemistry and stands as an eminent challenge for

68 iene isomers of considerable interest to the organic chemistry, molecular spectroscopy, and astrochem

69 arbonyl compounds are key building blocks in organic chemistry.

70 pathways to access triplet excited states in organic chromophores.

71 Along this line, we have developed organic CO prodrugs that allow for packing this gaseous

72 Histology corroborates the organic composition of these soft-shelled dinosaur eggs,

73 Isoprene is the dominant non-methane organic compound emitted to the atmosphere(1-3).

74 Machine learning models utilizing volatile organic compound profiles discriminated between atopic a

75 had the largest number of novel halogenated organic compounds (NHOCs).

76 The diffusivity of semivolatile organic compounds (SVOCs) in the bulk particle phase of

77 G) were used to investigate how semivolatile organic compounds (SVOCs) partition among indoor reservo

78 essed pollution plumes as oxidizing volatile organic compounds (VOCs) interact with SO(2) and water.

79 Faecal volatile organic compounds (VOCs) reflect the microbiota composit

80 that these are excellent reservoirs to host organic compounds against the harsh surface conditions o

81 aterials (such as silicon oxide derivatives, organic compounds and aerogels) have kappa values greate

82 Detection of urinary volatile organic compounds and ELISA assays showed that the loadi

83 ns to determine solubility limits of various organic compounds by exploiting their pH-active carboxyl

84 t a novel approach for in situ extraction of organic compounds from hydrothermal vent fluids through

85 periments-suggesting a selective transfer of organic compounds from seawater into the atmosphere.

86 ely used for the configuration assignment of organic compounds generally comparing one cluster of exp

87 ffecting their potential for preservation of organic compounds under contemporary Mars surface condit

88 ulatory mechanisms for persistent and mobile organic contaminants (PMOCs) that are not covered by the

89 ring chlorine photolysis effectively degrade organic contaminants during water treatment, but their r

90 Aromatic amines are relevant aquatic organic contaminants whose photochemical transformation

91 uction side of genetically modified (GM) and organic corn systems in Minnesota, USA.

92 ze, river morphology, and relative amount of organic debris on the distribution of microplastics.

93 herical photodetector array that contains an organic-dye-sensitized graphene hybrid composite is repo

94 Organic dyes that absorb and emit in the near-infrared (

95 h molecular oxygen are shown to occur during organic electrochemical transistor (OECT) operation usin

96 Among organic thin film transistors (OTFTs), Organic Electrochemical Transistors (OECTs) have been ex

97 electrochemical absorption spectroscopy and organic electrochemical transistors, and that exhibits l

98 In recent years, organic electronic materials have been shown to be a pro

99 nsfer complex formation and as a p-dopant in organic electronic materials.

100 ck "dynamic doping", an important concept in organic electronics and in polythiophene-based solid-sta

101 and further increase their applicability in organic electronics, photonics, and artificial photosynt

102 n the upper 20 cm of the soil (including the organic fermentation-humus [FH] layer), the C:N ratio an

103 The resulting metal-organic ferrimagnets feature critical temperatures up to

104 lative to the rich library of small-molecule organics, few examples of ordered extended (i.e., nonmol

105 ce integrating a multigate electrolyte gated organic field-effect transistor (EGOFET) with a 6.5 muL

106 for cell monitoring while Electrolyte-Gated Organic Field-Effect Transistors (EGOFETs) have never be

107 Organic films on indoor surfaces are ubiquitous, but det

108 city of organically grown plants and derived organic food products.

109 represent a class of promising redox-active organics for potential grid-scale energy storage systems

110 here is increasing interest in diverting the organic fraction of municipal solid waste from landfills

111 Herein, we deliberately design a Th-metal-organic framework (MOF) for highly efficient separation

112 haracterization of the first plutonium metal-organic framework (MOF).

113 The heterogeneous metal-organic framework Bi-BTC successfully catalyzed the synt

114 in diverse application areas including metal organic framework design, TM-based catalyst design, the

115 The chemical reduction of a robust metal-organic framework to render it capable of binding O(2) t

116 identate coordination environment in a metal-organic framework to stabilize discrete inorganic cluste

117 esis of a vinylene-linked (-CH=CH-) covalent organic framework, COF-701, directly from acetonitrile,

118 Now, a cationic nanoscale metal-organic framework, W-TBP, is used to facilitate tumor an

119 er with simple-to-fabricate iron-based metal-organic framework-derived photothermal nanoparticles is

120 f the pore size aperture in a flexible metal-organic framework.

121 Covalent organic frameworks (COFs) are an emerging class of cryst

122 crystalline, porous, and stable new covalent organic frameworks (COFs) have been developed by a stepw

123 Ester-linked, crystalline, porous covalent organic frameworks (COFs) have been synthesized and stru

124 llowed the construction of two rare covalent organic frameworks (COFs) with high crystallinity and ro

125 n capacities of nanomaterials, such as metal-organic frameworks (MOF), has been extensively investiga

126 The postmodification of metal organic frameworks (MOFs) affords exceedingly high surfa

127 Metal-organic frameworks (MOFs) are promising materials for on

128 wo-dimensional (2D) layered conductive metal-organic frameworks (MOFs) as drop-casted film electrodes

129 ion-motivated synthesis of ultraporous metal-organic frameworks (MOFs) based on metal trinuclear clus

130 e emergence of electrically conductive metal-organic frameworks (MOFs) has led to applications in che

131 Conductive metal organic frameworks (MOFs) represent a promising class of

132 Metal-organic frameworks (MOFs), constructed from organic link

133 ehensive analysis of carboxylate-based metal-organic frameworks (MOFs), we present general evidence t

134 ineering can enhance key properties of metal-organic frameworks (MOFs).

135 Nanoscale metal-organic frameworks (nMOFs) are excellent radiosensitizer

136 We recently introduced protein-metal-organic frameworks (protein-MOFs) as chemically designed

137 Metal-organic frameworks and porous coordination cages have sh

138 Covalent organic frameworks are an emerging class of porous cryst

139 Covalent organic frameworks offer a molecular platform for integr

140 alysts supported on zeotype materials, metal-organic frameworks, and covalent organic frameworks.

141 electrode (GCE) modified with Fe-based metal-organic frameworks, MIL-101(Fe).

142 ials, metal-organic frameworks, and covalent organic frameworks.

143 ost significant parameter for discriminating organic from conventional products.

144 Compatibility with common organic functional groups was observed with the reduced

145 (MSils)-for reservoir drilling fluids where organic functionalities are directly linked through the

146 ection in the community, as well as in close organic groups, such as hospital departments, army units

147 We featurize 21 organic halide salts, apply them as capping layers onto

148 ion of carboxylic acids to the corresponding organic halides via selective cleavage of a carbon-carbo

149 nce microscopy on single block copolymerized organic heterostructures shows energy migration and ligh

150 the non-covalent synthesis of nascent axial organic heterostructures, which promises to deliver usef

151 uest solution chemistry with a wide range of organic hosts is an important and established research a

152 forms, and increase the biodegradability of organic impurities.

153 abundant in the universe, many of these are organic in nature, including some of direct astrobiologi

154 to overcome phosphate's poor reactivity with organics in water.

155 Overall, 54 organics including 26 halogenated and oxygenated alkanes

156 c and silicon-based materials towards hybrid organic-inorganic materials to develop increasingly comp

157 ective layers toward deterioration of hybrid organic-inorganic perovskite devices by moisture.

158 Two-dimensional hybrid organic-inorganic perovskites with strongly bound excito

159 Organic-inorganic tin(II) halide perovskites have emerge

160 erent stabilization processes than at organo-organic interfaces.

161 s at the interface of the inorganic core and organic ligand shell by so-called "exciton-delocalizing

162 Metal precursors and organic ligands are separated to reduce the kinetic reac

163 As over 99% of iron is complexed to organic ligands, which increase iron solubility and micr

164 requirement of new types of displays such as organic light-emitting diode displays, and also to overc

165 ted delayed fluorescence (TADF) emitters for organic light-emitting diodes (OLEDs).

166 zo[d]thiazol-2-yl)phenol that can be used in organic light-emitting diodes and pharmaceuticals.

167 electrically detected magnetic resonance of organic light-emitting diodes based on thermally activat

168 -organic frameworks (MOFs), constructed from organic linkers and inorganic building blocks, are well-

169 Distinctly, organic linkers are judiciously designed in order to pro

170 ure prevents the efficient ionization of the organic material by a single ionization source, so the p

171 -are demonstrated to show that printing with organic materials is a versatile approach for rapid prot

172 are an emerging class of porous crystalline organic materials that can be designed and synthesized f

173 The organic materials were synthesized locally and/or delive

174 ly for accessing boron containing conjugated organic materials, however recent developments, summariz

175 titute a novel building block for functional organic materials.

176 ureas, which drive the assembly into porous organic materials.

177 ectronic properties of these next generation organic materials.

178 ding the tissue-skeleton interface, skeletal organic matrix, and biomineralization pathways.

179 The photobleaching of chromophoric dissolved organic matter (CDOM) is considered an important loss pr

180 three-dimensional configuration of dissolved organic matter (DOM) is an important factor in determini

181 ical transformation is affected by dissolved organic matter (DOM).

182 by thermally altering the chemistry of soil organic matter (SOM), thereby reducing rates of microbia

183 utaries had high concentrations of dissolved organic matter (~1.8 mmol C L(-1)).

184 ulated degradation of previously unavailable organic matter and led to increased liberation of "old"

185 to quantify how changes in the diversity of organic matter derived from plants (i.e. litter) affect

186 Oxidative decomposition of soil organic matter determines the proportion of carbon that

187 nlight, surface solar heating, and dissolved organic matter dynamics.

188 s of the global ocean with elevated rates of organic matter production supporting major fisheries.

189 oot exudation, microbial processes, and soil organic matter stabilization.

190 the accumulation and mobility of plastic and organic matter through the column (analogous to a soil).

191 dless of the amendment type, the addition of organic matter to soil increased the capability of the c

192 tems as hydrological inputs of nutrients and organic matter vary.

193 basic ecosystem functions (decomposition of organic matter, benthic primary production) by acting in

194 ificant biogeochemical changes, and cascaded organic matter, nutrients, Hg and other organically-boun

195 ation of the hydrophobic layer and pyrolysed organic matter, such as hydrophobic surface binding prot

196 With enrichment of organic matter, this system flips within three days from

197 hectare per year from the breakdown of soil organic matter.

198 the decomposition and export of preexisting organic matter.

199 for Hg(2+) complexed with natural dissolved organic matter: 9.0 x 10(-6) versus 9.8 x 10(-7) cm(2) s

200 n discriminate enantiomers of amino acids in organic media or aqueous solution are discussed.

201 lly extended the environmental monitoring of organic micropollutants.

202 rock 3D models, which represented nanoporous organic/mineral microstructure of the Marcellus Shale.

203 regurgitation [FMR] [84% nonischemic] and 5% organic mitral regurgitation [OMR] [62% degenerative]).

204 y-state and transient structure of the model organic mixed conductor, poly(3,4-ethylenedioxythiophene

205 ctions could be manipulated by design of the organic modifiers.

206 es the pai-pai stacking interactions between organic moieties.

207 oval of the ion template, result in a wholly organic molecular material that forms as stacks and clus

208 responsive POM cores with virtually any (bio)organic molecule or metal cation, generating a wide rang

209 The organic-molecule-based conduction band and the inorganic

210 med to codeposit [B(12)X(11)](-) and complex organic molecules (phthalates) in thin layers on surface

211 the structural interplay between the chiral organic molecules and the inorganic sublattice, as well

212 nly found in a few regions, and more-complex organic molecules are not observed.

213 ctrode which requires conditions under which organic molecules are not stable.

214 berculosis relies on the production of small organic molecules called siderophores that scavenge iron

215 nging C-C and C-heteroatom bonds for complex organic molecules in a sustainable fashion under mild re

216 emistry and isomeric substitution pattern of organic molecules is typically determined using nuclear

217 C) bonds providing the central framework for organic molecules, development of biocatalytic methods f

218 their water solvation shell as compared with organic molecules.

219 s object that contains hydrated minerals and organic molecules.

220 employing a single self-assembly step where organic monolayer films were deposited on the catalyst s

221 Very few PA values are available for basic organic monoradicals and none for biradicals.

222 Dry anaerobic digestion (AD) of organic municipal solid waste (MSW) followed by composti

223 ture and release of UO(2)(2+) in monophasic (organic) or biphasic (organic/aqueous) model solvent sys

224 lead to cellular accumulation of protective organic osmolytes.

225 The catalytic mechanism of the organic oxidases has been elucidated, and the high TOF i

226 ed mixtures of organic and inorganic P, with organic P estimated at 30-60% of total P.

227 g the P L(2,3)-edge, we identified different organic P species, including those not identified by the

228 odel relating enantioselectivity to physical organic parameters.

229 t of tomato pomace (TP) and essential oil of organic peppermint (PM) on pH, color, residual nitrite c

230 with [4](2+) suggest the intermediacy of an organic peroxide that, upon protonation, converts back i

231 lts indicated that encapsulation depended on organic phase concentration, with higher PBAT contents a

232 Here, we identify disordered micrometer-size organic phases rather than previously reported ordered g

233 Herein, organic photodetectors based on a novel ultranarrow-band

234 iled methodology for the characterization of organic photodiodes based on polymeric bulk heterojuncti

235 ion (920-960 nm), which is the highest among organic photodiodes.

236 ylic position can be accomplished using dual organic photoredox/cobalt catalysis.

237 Organic photovoltaic (OPV) efficiencies continue to rise

238 ssues, resulting in dramatic improvements in organic photovoltaic performance, now exceeding 18% powe

239 uctors, which offers a unique application of organic photovoltaics (OPVs): semitransparent OPVs.

240 lar cells (PSCs) using a low-cost industrial organic pigment quinacridone (QA) is presented.

241 eV ions (MeV-SIMS) for analysis of synthetic organic pigments (SOPs) that can be usually found in mod

242 We believe that this work establishes organic polaritons as a serious contender to the well-es

243 Oxidative processes frequently contribute to organic pollutant degradation in natural and engineered

244 mus) are highly contaminated with persistent organic pollutants (POPs).

245 ide range of routes, such as some persistent organic pollutants (POPs).

246 essed for accumulation of both inorganic and organic pollutants.

247 ptoelectronic device consisting of patterned organic polymer semiconductors interfaced with an electr

248 The organic polymer-based monolithic columns have been evalu

249 riven approach to fabricate Borromean linked organic polymer.

250 Porous organic polymers (POPs) have shown significant promise o

251 terature and cars-as well as a collection of organic populations.

252 be in situ doped depending on the choice of organic precursors and the electrochemical set-up.

253 use efficiency (PUE) is highly desirable for organic pulse crop biofortification.

254 The solid-state properties of organic radicals depend on radical-radical interactions

255 aves hardly produced heat, but increased the organic radicals in termite bodies indicating non-therma

256 ssfully applied the method to a trifurcating organic reaction, a carbocation rearrangement, and solve

257 very appealing option for this archetypical organic reaction.

258 most established method for the analysis of organic residues, particularly lipids, from archaeologic

259 We now demonstrate that these organic salts, specifically azetidinium triflates, are s

260 todeposition approach is also applicable for organic samples after acid-assisted microwave digestion.

261 Higher amount of phenolic were determined in organic samples.

262 ging of sucrose clusters which are benchmark organic samples.

263 102% and in conventional samples and 119% in organic samples.

264 fficiency spectra of a significant number of organic semiconductor blends.

265 itic carbon nitride (g-C(3)N(4)) is a robust organic semiconductor photocatalyst with proven H(2) evo

266 is, this work proposes a single-atomic-layer organic semiconductor with a wide band gap of 3.41 eV.

267 avoid contamination or physisorption on the organic semiconductor.

268 Here, various molecular organic semiconductors (OSCs), with known excitonic up-

269 Organic semiconductors are commonly used as charge-extra

270 olecular orbitals, the absorption spectra of organic semiconductors are not continuous like those in

271 llenging and, to date, the true potential of organic semiconductors in this spectral range (800-2500

272 ad greater soil respiration and lower SOC in organic soil horizons than heather control plots.

273 , by 74 times in mineral soil and 2 times in organic soil.

274 Morphology tuning of the blend film in organic solar cells (OSCs) is a key approach to improve

275 chieve high power conversion efficiencies in organic solar cells.

276 essential for the successful application of organic solar cells.

277 r extraction time (1.83-2.09 times) and less organic solvent (3.39-173.25 times) to operate at a lowe

278 litate the chemical synthesis of peptides in organic solvent as well as the enzymatic synthesis of gl

279 fabricated using a single emulsion and mixed organic solvent method.

280 y-antigen pairs by the use of water-miscible organic solvent mixtures, and its application in the dir

281 Transfer to organic solvents commonly used in polymer and peptide sy

282 The use of organic solvents improves digestion, generating more pep

283 s using a 3-(aminomethyl)piperidinium (3AMP) organic spacer for the fabrication of mixed Pb/Sn-based

284 -performance displays, to 3D imaging and all-organic spintronic devices.

285 The incorporation of molecular switches in organic structures is of great interest in the chemical

286 Addition of fluorine to organic structures represents a unique strategy for tuni

287 reversible covalent interactions between an organic substrate and a chiral mediator, we have develop

288 after repeated mechanical bending as well as organic synapses capable of emulating a trainable and re

289 e skeleton is an important building block in organic synthesis because it features several reaction s

290 thod to expand DEL reactivity using standard organic synthesis protocols.

291 ane is one of the most versatile reagents in organic synthesis, but its utility is limited by its haz

292 rsors, has been a long-standing challenge in organic synthesis.

293 r procedure more efficient and practical for organic synthesis.

294 after transformations in the field of modern organic synthesis.

295 Among organic thin film transistors (OTFTs), Organic Electroch

296 However, like any organic transformation, there is no perfect bioorthogona

297 enium ions are explored as catalysts in five organic transformations.

298 s offer a molecular platform for integrating organic units into periodically ordered yet extended two

299 es are rich in polyphenols but the impact of organic versus conventional agricultural practices on th

300 H(3) emissions from composting nitrogen-rich organic waste or post-AD solids.